Your eyes see differences in the light that comes in. It’s a bit like the way we hear sounds as being low or high. This is called pitch, and it corresponds to the frequency of the sound, or how many times it vibrates in a given time period.
The keys on the left side of a piano keyboard make low-frequency sounds. The frequency rises as you go to the right. There’s a similar order to the colors we see.
The colors of every rainbow always appear in the same order: red, orange, yellow, green, blue, indigo, and violet. The different colors in each part of the rainbow correspond to a different wavelength of light. Reddish colors have a long wavelength. Bluish colors have a shorter one. Just as there are many notes on the piano, many wavelengths of light match the different colors.
How Does Your Eye See Colors?
Think of your eye as a camera. The front part has a lens. Its job is to focus images on the inside of the back of your eye. This area is called the retina. It’s covered with special nerve cells that contain pigments that react to light:
Rods only have one kind of pigment. It reacts the same way to any light wavelength. Rods don’t have anything to do with color vision. But they are very sensitive to light and allow us to see at night.
What Is Color Blindness?
When the cones have all the various pigments — called photopigments — your eye sees all possible colors. If there’s a problem with the pigments, you won’t see colors the way you should. This is called color deficiency or color blindness.
If you don’t have any pigments in your cones, you won’t see color at all. This is known as achromatopsia, and it is rare.
What Causes Color Blindness?
Usually, genes inherited from your parents cause faulty photopigments — molecules that detect color in the cone-shaped cells, or “cones,” in your retina.
But sometimes color blindness is not because of your genes, but rather because of:
- Physical or chemical damage to the eye
- Damage the optic nerve
- Damage to parts of the brain that process color information
- Cataract — a clouding of the eye’s lens
- Age
What Are The Different Types Of Color Blindness?
Red-Green Color Blindness
It’s when photopigments in your eyes’ red cones or green cones don’t work properly — or at all. There are several types:
- Deuteranomaly: It’s the most common form of color blindness and affects 5% of males, but is rare in females.
- It happens when the green cone photopigment doesn’t work as it should. Yellow and green look redder, and it’s hard to tell blue from violet.
- Protanomaly: Your red cone photopigment doesn’t work as it should. Orange, red, and yellow look greener, and colors are less bright. It’s usually mild and doesn’t cause problems in daily life. It’s rare in females and affects about 1% of males.
- Protanopia: You have no working red cone cells. The color red simply looks dark gray. Some shades of orange, yellow, and green look yellow. It’s rare in females and affects about 1% of males.
- Deuteranopia: You have no working green cone cells. Reds may look brownish-yellow, and greens may look beige. It affects 1% of males and is rare in females.
This is when your blue cone photopigments are either missing or don’t work correctly. It’s the second most common type, and it affects males and females equally.
- Tritanomaly: Your blue cone cells work in only a limited way. Blue looks greener, and it can be hard to tell pink from yellow and red. It’s extremely rare.
- Tritanopia: Also known as blue-yellow color blindness, you have no blue cone cells. Blue looks green, and yellow looks light gray or violet. It’s extremely rare.